How does water get to the top of a tree?

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AS - Level Biology (Mass Transport in Plants) Quiz on How does water get to the top of a tree?, created by Lucy Garland on 09/04/2016.
Lucy Garland
Quiz by Lucy Garland, updated more than 1 year ago
Lucy Garland
Created by Lucy Garland over 8 years ago
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Resource summary

Question 1

Question
What do xylem vessels transport?
Answer
  • Minerals
  • Water
  • The products of photosynthesis

Question 2

Question
Leaves have [blank_start]stomata[blank_end], which open to let [blank_start]carbon dioxide[blank_end] in for photosynthesis. This, unavoidably, lets water diffuse out of the leaf due to the surrounding air usually having a [blank_start]lower[blank_end] [blank_start]water potential[blank_end] than inside the leaf. This process is called [blank_start]transpiration[blank_end] which defines as the evaporation of water vapour, mainly through the stomata in the surface of a leaf. It is a [blank_start]passive[blank_end] process, using energy from the sun, which evaporates water from the [blank_start]mesophyll[blank_end] cells. As water vapour diffuses from the air spaces in the mesophyll and through the stomata, it is replaced by water from the [blank_start]mesophyll[blank_end] cells. This in turn is replaced by water from the [blank_start]xylem[blank_end] in the veins of the leaf.
Answer
  • stomata
  • carbon dioxide
  • lower
  • water potential
  • transpiration
  • passive
  • mesophyll
  • mesophyll
  • xylem

Question 3

Question
Water cannot be pulled up more than [blank_start]10[blank_end]m, which is a problem tall trees must be overcome. Xylem vessels are very narrow, and water molecules tend to stick together because of the [blank_start]hydrogen[blank_end] bonds between them - this property of water is called [blank_start]cohesion[blank_end]. As water moves out of the [blank_start]xylem[blank_end] in a leaf, it drags other molecules of water behind it. Because the vessels are so [blank_start]narrow[blank_end], the column of water behind does not break, and water is pulled up all the way from the roots. The pulling force is so great that the column of water is actually being [blank_start]stretched[blank_end] - it is under [blank_start]tension[blank_end]. The tension in the column of water tends to pull the walls of the vessels [blank_start]inwards[blank_end] slightly. However, the [blank_start]lignin[blank_end] in the walls is strong enough to stop the vessels [blank_start]collapsing[blank_end].
Answer
  • 10
  • 5
  • 20
  • hydrogen
  • covalent
  • strong
  • cohesion
  • tension
  • xylem
  • phloem
  • narrow
  • wide
  • stretched
  • pulled
  • tension
  • cohesion
  • inwards
  • outwards
  • lignin
  • cellulose
  • collapsing
  • bursting
  • breaking

Question 4

Question
Water enters the roots by [blank_start]osmosis[blank_end] and passes up the stem to the leaves, where it evaporates into the [blank_start]air spaces[blank_end] inside the leaf and then passes out to the atmosphere through the [blank_start]stomata[blank_end]. The air has a low [blank_start]water potential[blank_end] because it normally has a low percentage of [blank_start]water vapour[blank_end].
Answer
  • osmosis
  • diffusion
  • transpiration
  • air spaces
  • cells
  • stomata
  • mesophyll
  • water potential
  • concentration
  • water vapour
  • water molecules

Question 5

Question
Which of these are advantages of transpiration
Answer
  • The stream of water transports mineral ions around the plant
  • The flow of water helps to cool down the plant.
  • The evaporation of water from the leaves has a cooling effect which prevents enzymes denaturing.
  • The evaporation of water has a cooling effect which gives the plant energy.

Question 6

Question
The two ideas, of cohesion and tension, used to explain how water is pulled up in a plant, are brought together by what theory?
Answer
  • Cohesion-tension theory
  • Tension-cohesion theory
  • Cohesion theory
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